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# 【精品完整版】烟囱设计中的流体力学

《烟囱设计中的流体力学》 的案例分析报告 课题名称 系 专 班 成 别 业 级 员 烟囱设计中的流体力学 指导老师 《烟囱设计中的流体力学》的案例分析报告 摘要 本次案例分析主要以流体静力学基本方程式与双流体伯努利方程式为理论依据， 对烟囱设计中的流体力学进行了探究式学习， 更加直观的解释了伯努利流体动力 学方程的几何意义，之后结合实际，研究设计 120t/h 步进式加热炉的烟囱高度。 在开放式课堂教学实践中，以学生为主体，通过师生角色互换，引导学生探究式 学习，使学生能够在主动参与、积极探究中构建新知，发展能力。 关键词： 流体静力学 伯努利方程 双流体 开放式 烟囱 1 目录 摘要 ······································································· 错误！未定义书签。 一、导论 ······························································································ 3 （1）《烟囱设计中的流体力学》的案例的提出与意义 ························ 3 1.研究论题 ··························································································· 3 2.研究的意义 ······················································································· 3 二、《烟囱设计中的流体力学》的案例分析的目标与研究内容 ············ 3 （1）《烟囱设计中的流体力学》案例分析的目标 ······························· 3 （2）《烟囱设计中的流体力学》案例分析的研究内容 ························ 3 1.研究内容的界定 ················································································ 3 2.研究内容的确定 ················································································ 3 三、《烟囱设计中的流体力学》案例分析的理论依据 ·························· 4 四、《烟囱设计中的流体力学》案例分析的研究过程 ·························· 4 （1）小组内探究式学习 ······························································· 4 （2）师生间讨论 ·········································································· 4 （3）课堂教学实践······································································· 4 五、《烟囱设计中的流体力学》案例分析的结论 ································· 5 六、《烟囱设计